Post on 08-Nov-2020
GIPAM-2000/2200
Digital Integrated Protection & Monitoring Device
The optimum protection which leads protective
diagnosis and reliability improvement of
own protection relay, quick
accident analysis and
maintenance & repair,
preventive control,
minimizing accident spread.
IEC 60255, KEMC 1120
ISO 9001, ISO 14001
Contents Features N-1-8
Technical Specifications N-1-9
Communications N-1-11
External & Structure N-1-12
Man Machine Interface N-1-14
System Configuration N-1-18
Characteristics N-1-20
Time Characteristic Curves N-1-25
Wirings N-1-29
Contact Usage N-1-37
Dimension N-1-41
Ordering N-1-43
N1
series are multifunction
microprocessor-based protection equipments suitable for
all types of application such as distribution feeders. It can
be also be used for management backup protection of
incomings, feeders, transformers and high tension motors.
GIPAM-2000/2200 can arrange easily as demand of users’need as well as apply to various sequences because the logicdesign through a simple logic program is available regardinginput/output contacts. GIPAM-2000/2200 series provides various monitoring,measuring functions and it does easy accident analysis bystoring data fires such as 800 events, 200 faults and maximum64 .or. 128 cycle’s fault waveform. Furthermore, whenaccidents happens, alarm signal can put out during theoperation in terms of self testing.GIPAM-2000/2200 series provide IrDA Serial Ports for
Over current protection function includes protection elements suchas over current, over current ground fault, selective ground faultcurrent, directive ground fault current, negative sequence overcurrent in each phase with regard to time delay or instantaneouselements. Moreover, it supports under voltage, over voltage,ground fault over voltage, phase reversal over voltage, etc.regarding voltage protection and thermal overload, rocked rotor,differential, ground fault differential regarding various kinds ofprotection functions. As it has differential, ground fault differentialto protect a transformer, and the protection of secondary wirestransformer is available too.
GIPAM-2000/2200
N-1-4
GIPAM
-2000/2200
N1
connecting PC which is performing the operation program, andthey are equipped with RS-485, optic communication ports tocommunicate with the upper systems. In addition, they supportDNS 3.0, MODBUS protocol widely spread in the industrialelectric section and I-NET which is the exclusive expresscommunication system by LSIS. Setting all protection function and monitoring as well aschecking many kinds of functions are available through theoperation program based on PC interface.
N-1-5
N-1-6
Digital Integrated Protection & Monitoring DeviceFeatures
Easy GIPAM-2000/2200 Setting
GIPAM-2000/2200 series is simple to set all relay functions and verify all supported functions through the offered operation program(GIPAM OPTO MASTER) which is based on PC interface. After setting the each parameter, downloading data from the communication port onthe front of GIPAM-2000/2200 series leads completion of setting. It is very easy to maintain and repair due to the availability of download &upload.
MIMIC Diagram & Graphic LCD
The 320×240 graphic LCD of GIPAM-2000 features aconvenient MMI and various types of display. MIMIC diagramespecially displays the system that GIPAM-2000 has been appliedto in the form of a one-line diagram so as to see them at a glance ,which enables easily the checking of operating status of thedevices such as contacts or breakers according to the output ofGIPAM-2000. MIMIC diagram can be designed in the operationalprogram for the PC Interface by user.
Harmonic Spectrum
GIPAM-2000 can display the harmonic analysis SPECTRUM,which enables the measurement and verification of current andvoltage from the 2nd harmonic to 13th harmonic and THD (TotalHarmonic Distortion) can be displayed together .
<GIPAM-2000>
EVENT & FAULT RECORDING
GIPAM-2000/2200 is able to store up to 800 events that arerelated to Protection & Measuring function, Breaker operation,Contact trip, operation information, and selfdiagnosisoutcome.Moreover, in case of line and load fault incidents,GIPAM-2000/2200 can store up to 200 detailed informationregarding fault analysis, current fault, and voltage fault
Fault waveforms are saved as a Comtrade (IEEE) file format tobe analyzed its waveforms or used for fault simulations.
Sequence of Event(SOE) Function
GIPAM-2000/2200 supports the SOE function that makes easy forreviewing fault analysis and operation information by recordingevents in sequence at 1ms’ intervals regarding internal protectionrelay, breaker operation, or self-diagnosis abnormalities such asalarm contact output and others.These events including the latestregistered one can be stored as many as 800. Each event can beverified in detail under the “EVENT LIST” section from the initialscreen of “EVENT/FAULT REC” Menu. In addition, it is possible tosave as files with GIPAMManager (capable to manage more than800).
N-1-7
GIPAM
-2000/2200
N1
Vector Diagram
GIPAM-2000/2200 can display a vector diagram regarding thesystem’s voltage, current, and phase through PC interfaceoperating program. It is easy to comprehend its electric system’scondition because of visualization from the diagram that verifiesthe amount of electricity.
Time Characteristic Curve
By operating PC interface operating program, it is possible toverify time characteristic curves to check with arranged valuesafter setting each protection relay. Therefore, it is veryconvenient to program protection relay. Besides, it is simple tomake protection coordination among electric systems as well.
N-1-8
Digital Integrated Protection & Monitoring DeviceFeatures
Select Before Operating(SBO) and Check BeforeOperating(CBO) Function
By choosing controlling Points first before sending out orders towhere it is desired to control, control orders are executed onlyalong with normal responses. This function enhances to controlreliability and security.GIPAM-2000/2200 applies SBO/CBOfunctions at CB control’s power contact points. For selectedcontrol point, it will wait for control orders for 5 seconds after itsresponse. If the control order won’t be delivered within 5 seconds,it will be reset. The control functions will be executed only on thenormal condition when orders were delivered within 5 seconds,
Various Communication Compatibilities
GIPAM is possible to select its communication from RS-485/422,Optic, Ethernet and I- NET. Its application to diverse systems isconvenient in the industrial sites, because it supports variousprotocols such as DNP 3.0, IEC 60870, MODBUS and exclusiveI-NET protocol as well. Not only it is able to support the Ethernetcommunication mode through a protocol transformer enablinghigh speed data communications, but also it is possible to makeup differentiated systems using H.A.(High Availability)communication supports. Moreover, the product’s front side isequipped with an IrDA(infrared rays) port to provide easy accessto upload/download with PC
TRIP LOGIC and SEQUENCE
Including a trip relay, GIPAM-2000/2200 series’ all I/O contactpoints and protection relay’s operation signals can be managedby the logic that is directly designed by users. The logic can beeasily arranged by using provided PC operating program, andapplied to a variety of sequences.
ANALOG INPUT (OPTION)
GIPAM-2200 is able to measure various analog data such asdistribution panels’ internal temperatures, transformertemperature, motor’s internal stator and bearing temperatures,and rectifier’s AC/DC voltage and current through its analogcontacts(4point) without using additional TD.- AI input variation : DC 4~20mA- Number of Contact Point : 4point- Display method : User Define- Accuracy rate : 0.2% at Full scale
TRIP CIRCUIT SUPERVISION (TCS) & TRIP RELAYSUPERVISION (TRS)
To check circuit’s condition, GIPAM-2000/2200 internallymake micro-current to flow on a trip circuit that is composedof breaker’s trip coil and control voltage, and trip relay; andtests it every hour. By composing trip relay with 2 pole series,not 1 pole by itself, it will execute contact operation at regularcycle or requested time checking trip relay automaticallywithout operation of a circuit breaker. After the automaticcheck-up, the result will be recorded as event and if faulthappens, contact output will be printed to prevent accidentsin advance.
CIRCUIT BREAKER FAILURE (CBF)
GIPAM-2000/2200 supports breaker failure function that canprevent further extension of accident by controlling uppercircuit breaker to trip, when lower circuit breaker failed to actdespite protection relay was activated and sent trip signal forproblems in the circuit. This function is not limited only ontrip signal, but also includes CB Close/Open control failure, itwill produce alarm output as well.
PT(VT) FAILURE
By detecting PT 2nd fuse melt-down in advance, it’s possible tocollect alarm message and logic prints which can be used toprevent unnecessary system cutoffs by protection relayoperation of UVR and NSOVR. It does not activate under under-voltage or blackout situation, it compares with voltage currentand on breaker conditions to decide PT fuse opening. Byutilizing DO output, it can generate alarm signal and it can alsomake Trip Block to disable trip function. Replacing PT fuse willreset it immediately.
N-1-9
Technical Specifications
GIPAM
-2000/2200
N1
Rating
Type Specification
Wiring 1P3W, 3P3W, 3P4W
Frequency 60Hz/50Hz
VoltagePT 110V
GPT 190V, 190/ 3V
CurrentCT 5A (Option : 1A)
ZCT 200/1.5mAInput
Control Voltage AC/DC 110V/125V
Power Consumption Normal : Max. 30W, Operating : Max. 70W
BurdenPT Max. 0.5VA
CT Max. 1.0VA
Input Contact 6EA Digital Input : AC/DC 110V/125V
2EA for PowerAC 250V 16A / DC 30V 16A, Resistive Load
Output Contact4000VA, 480W
10EA for AlarmAC 250V 5A / DC 30V 5A, Resistive Load
1250VA, 150W
Insulation Resistance Over DC 500V 100
Insulation Voltage AC 2kV (1kV) / for 1 min
Impulse Voltage AC 5kV (3kV) Over 1.2 × 50
Current circuit3 In for 3 hours
Overload Withstand 20 In for 2 seconds
Voltage circuit 1.15 Vn for 3 hours
Fast Transient DisturbancePower Input 4kV
Other Input 2kV (Analog input 1kV)
ESD (Electrostatic Discharge)Air 8kV
Contact 6kV
Operation temperature -10 ~ 55
Storage Temperature -25 ~ 70
Humidity Average 30% ~ 80%
Altitude 1000m and below
OthersNon-impact place
Non-air pollution place
Standard IEC 60255, IEC 61000-4, KEMC 1120
√
N-1-10
Digital Integrated Protection & Monitoring DeviceTechnical Specifications
Protection function
Measurement function
Measurement Display range Accuracy (%) RemarksVoltage (V) 0.00V ~ 999.99kV ±0.5% Line voltage, Phase voltage
Zero phase voltage (VO) 0.00V ~ 999.99V ±0.5% VO, VO-max
Reverse phase voltage (V2) 0.00V ~ 999.99kV ±0.5%
Current (A) 0.00A ~ 999.99kA ±0.5% Phase current
Zero phase current (IO) 0.00A ~ 999.99A ±0.5% IO(In), IO(In)-max
Reverse phase current (I2) 0.00A ~ 999.99kA ±0.5% Displayed only at M type
Phase 0.00。~ 360.00。 ±0.5%Phase between lines, between phases, between phase and current,
between currents, between Zero phase Amps and voltage
Active power (W) 1) 0.00W ~ 999.99MW ±0.5%+ : Forward, - : Reverse
Reactive power (VAR) 0.00VAR ~ 999.99MVAR ±1.0%
Apparent power (VA) 0.00VA ~ 999.99MVA ±1.0%
Active Energy (WH) 0.00WH ~ 9999.99MWH ±1.0% + : Forward, - : Reverse
Reactive energy (VARH) 0.00VARH ~ 9999.99MVARH ±1.0%
Frequency (F) 45 ~ 65Hz ±0.5%
Power Factor (PF) -1.000 ~ 1.000 ±1.0%cosθ, Lead(-)/Lag(+)
Fundamental Power Factor (DPF) -1.000 ~ 1.000 ±1.0%
Voltage harmonics (%) 0.00 ~ 100.002) Va(ab), Vb(bc), Vc(ca), Vo (n) of the 2nd ~ 13th harmonics and THD
Current harmonics (%) 0.00 ~ 100.002) Ia, Ib, Ic, IO(n)의 2nd ~ 13th harmonics and THD
Active Power Demand 0.00W ~ 999.99MW2) Total Peak Demand, Over Demand
Reactive Power Demand 0.00W ~ 999.99MVAR2) Total Peak Demand, Over Demand
Current Demand 0.3A ~ 999.99kA2) Each phase and total Peak Demand
Note) 1. Accuracy of Real power is based on the rating for PF = 12. Hormonics and Demand function applies only for GIPAM-2000
IncomingFeederMotor
Transformer
Type Usage Protection
∙OCR (50/51) ∙OCGR (50/51N) ∙SGR (67G)
GIPAM-2000FIFeeder ∙DGR (67N) ∙OVR (59) ∙OVGR (64G) 3)
Incoming ∙UVR (27-1) ∙R-UVR (27R) ∙NSOVR (47N)∙POR(47P) ∙Reclosing (79) ∙Lock-out (86) 2)
∙OCR (50/51) ∙OCGR (50/51N) ∙SGR (67G)
GIPAM-2000M Motor ∙DGR (67N) ∙NSOCR (46) ∙POR (47P)∙NSOVR (47N) ∙THR (49) ∙UVR (27-1)∙48/51LR ∙Lock-out (86) 2)
∙DFR (87T) ∙OCR (50/51-1) ∙OCR (50/51-2)GIPAM-2000T Transformer ∙OCGR (50/51N-1) ∙OCGR (50/51N-2) ∙Inrush Detector (68) 1)
∙Lock-out (86) 2)
Note) 1. DFR (87T) contains Inrush Detector (68). 2. Lock-out (86) can be configured as a PLC Trip Logic 3. OVGR is not connected to the CB_OFF (TRIP circuit) . ( Modify the LOGIC if necessary )
GIPAM-2200 FN
GIPAM-2200 FZ
GIPAM-2200 T1
GIPAM-2200 T2
GIPAM-2200 T3
∙OCR (50/51) ∙OCGR (50/51N) ∙DGR (67N)∙UVR (27) ∙OVR (59) ∙OVGR (64)∙NSOVR/POR (47) ∙NSOCR (46) ∙THR (49)∙48/51LR ∙UCR (37) ∙NCH (66)∙OCR (50/51) ∙SGR (67G) ∙OVGR (64G)∙UVR (27) ∙OVR (59) ∙THR (49)∙NSOVR/POR (47) ∙NSOCR (46) ∙NCH (66)∙48/51LR ∙UCR (37)
∙DFR (87T-P) ∙DFR (87T-G) ∙OCR-1 (50/51)
∙OCR-2 (50/51) ∙OCGR-1 (50/51N) ∙OCGR-2 (50/51N)
∙OVGR (64) ∙DGR-1 (67N) ∙DGR-2 (67N)
∙DFR (87T-P) ∙DFR (87T-G) ∙OCR-1 (50/51)
∙OCR-2 (50/51) ∙OCGR-1 (50/51N) ∙DGR-1 (67N)
∙OVGR (64) ∙SGR-2 (67G)
∙DFR (87T-P) ∙DFR (87T-G) ∙OCR-1 (50/51)
∙OCR-2 (50/51) ∙OCGR-2 (50/51N) ∙DGR-2 (67N)
∙OVGR (64) ∙SGR-1 (67G)
N-1-11
Communications
GIPAM
-2000/2200
N1
GIPAM-2000/2200 provides baud rate up to 64kbps data transmission with the general RS-485 communication. In addition, RS-485/I-NET combo port and Fiber Optic (optical) port are provided, and DNP3.0 MODBUS protocol and I-NET (LSIS-dedicated) protocol aresupported. The standard protocol, MODBUS protocol transmitting data at 100Mbps is applied to Ethernet communication method ofGIPAM-2000
I-NET communication standardsI-NET is an express and high reliable communicationwhich is designed with Custom LSI(GCV14605) ASICChip developed by LSIS.Baud rate: 250kbpsCommunication Line:
Low capacitance LAN Interface cableCommunication range: Maximum 1 kmSpecification:
LIREV-AMEBSB 22AWG 2-pair (7/0.254TA)Isolation Method: Pulse TransformerCharacteristic Impedance: 10MHz, 120ΩConnection Method: 4-Wire Multi-dropTermination: 2 Vertical 120Ω resistances are needed
in the both sides of the line ends.Signal Modulation: Bipolar
DNS3.0, MODBUS / RS-485 CommunicationstandardsOperation mode: DifferentialCommunication Range: Maximum 1.2kmCommunication Line: RS-485 shield twist 2-Pair cableCommunication speed: Normally 19.2kbps~38.4bpsTransmission Method: Half-DuplexMaximum Input/Output Voltage: -7V~+12V
DNS3.0, MODBUS/Optic CommunicationStandards (Optic Transceiver Specification)Wave Length: 820nmFiber Size: 50/125. 62.5/125, 100/140Optical Connector Type: ST TypeOptic Link Distance:
Depends on Data rate, Maximum 4km (GIPAM-2200’s Data bit rate: 9600bps ~ 230.4kbps)
MODBUS TCP/IP (GIPAM-2000)100Base-TX
Maximum baud rate: 100MbpsTopology: Star TypeTransmission media: UTP(CAT.5), STP(Level3)Maximum transmission distance : Max. 100m per segment
UNIT ID: 255
<GIPAM-2000>
<GIPAM-2200>
Extra Communication Equipments.
Protocol Converter (GMPC)
Converting into RS-232/485/422 common use, Ethernet
Supporting DNP3.0, MODBUS Protocol
1
2
3
4
<GMPC>
Terminal Block 2
Terminal Block 1
Communication Reset Switch, Communication (RX) LED
Communication Terminal
Optical Port
I/O Terminal
5
Fiber Optic Port or TCP / IP Port
Main port
Auxiliary port
Rear View6
N-1-12
Digital Integrated Protection & Monitoring DeviceExternal & Structure
Display MIMIC Diagram
Saving the settings
Delete recorded data
Remote / Local switching (Green LED-Remote, Red LED-Local)
Draw-out Type
Enter Selection of items, Confirmation of the settings
CancelCancellation of the selecteditem, Cancellation ofchangingthe settings
Assigning the Trip Assign LED
Release the Trip / Pick-up status (Reset)
Trip Assign LED 1~6
Draw-out Handle
Function KeyF1~F5
Remote/LocalEnterCancel
Status LED
∙Power/Run∙Comm∙Diag/Err∙Trip/Pick-up
CB1 ON/OFFCB2 ON/OFF
IrDA (infrared)Port
Direction Key
320××240 Graphic LCD
GIPAM-2000
N-1-13
GIPAM
-2000/2200
N1
FUNCFUNCTIONUsing with ESC key when clearing Data,No use of it during normal operation
RESETThe Restoration of tripThe indication of LED after faults,The restoration of LCD
ESCESCThe cancel of selected item & change of setting values
ENTERENTERThe selection of item The confirmation of setting
R / LRemote/LocalThe switching of Remote/Locai
<Draw-out Type>
Front View
Status LED
∙Power∙Comm(Tx)∙Diag/Err∙Pick-up/Trip
Direction Key
IrDA Port
Trip Assign LED 11EA
Function Key
∙∙FUNC∙RESET∙ESC∙ENTER
20××4 Text LCD
Draw-out Handle
CB CLOSE/OPENCC CLOSE/OPEN
Operating Key
Remote/Local
GIPAM-2200
N-1-14
Digital Integrated Protection & Monitoring DeviceMan Machine Interface
GIPAM-2000FI
GIPAM-2000M
N-1-15
GIPAM
-2000/2200
N1
GIPAM-2200 F
GIPAM-2000T
N-1-16
Digital Integrated Protection & Monitoring DeviceMan Machine Interface
MMI Interface (GIPAM-2000)Graphic LCD and control keys on the front of the GIPAM-2000 Series enable the setting of various protection elements. In addition, various measurements displaying , Fault and Event Data logging, DI / DO Monitoring and the SYSTEM Configuration to check the status of the setting of the GIPAM-2000 can be done.
380.1V
380.0V380.4V
Initial menu Sub-menu Detailed menus
GIPAM-2200 T
N-1-17
GIPAM
-2000/2200
N1
MMI Interface (GIPAM-2200)GIPAM-2200 series can be set various kinds of relay functions by handling the Text LCD & Control keys on the front. In the menu,there are measuring value displays, Fault & Event Data Logging, DI/DO Monitoring, SYSTEM Configuration & System informationfor setting the rate of PT/CT, wiring method, setting communication and verifying information.
X GIPAMGIPAM-2000 GIPAM-2200
GIPAM-115FIDPR-1000
GIMAC-IV / II Plus
DNP 3.0MODBUS TCP
IEC 61850
DNP 3.0MODBUS
DNP 3.0MODBUS RTU
N-1-18
Digital Integrated Protection & Monitoring DeviceSystem configuration
GIMAC-i GIMAC-DC
GIMAC-PQ
DPR micro-RTUIMP-C
IMC-III
Internet / Intranet
Web-ServerTWS
GMPC-V GMPC-Master
Analog 4~20mA
GMPC-Master PLC
N-1-19
GIPAM
-2000/2200
N1
N-1-20
Digital Integrated Protection & Monitoring DeviceCharacteristics
Note) 1. * Operating Delay time (C) can be set: 0.00 ~ 10.00s/0.01s (applies only for inverse time) 2. OVGR is not connected to the CB_OFF (TRIP circuit) . ( Modify the LOGIC if necessary )
Reclosing protective elements Prepared Time Dead Time Reclaim Time Reclosing times
OFF, 0.0~300.0s / 0.2~300.0s / 0.0~300.0s /
0.1s 0.1s 0.1sReclosing (79) OCR, OCGR, SGR, DGR
1~5 times
(1 time for Instantaneous Trip)
Reclosing element
OCR
(50/51)
Protection
OCGR
(50/51N)
SGR (67G)
DGR (67N)
OVR (59)
OVGR
(64G) 2)
UVR (27)
R-UVR (27R)
NSOVR (47N)
POR (47P)
*
*
*
Instanta Low setOFF, 0.5~32In/0.1In 30~250ms Definite
neous High set
Time Low set OFF, 0.10~5.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT, delay High set OFF, 0.10~10.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Instanta Low setOFF, 0.1~8.0In/0.02In 40~250ms/5ms Definite
neous High set
Time Low set OFF, 0.02~2.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT, delay High set OFF, 0.1~2.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Zero-phaesGrounded
OFF, 0.9~6mA/0.1mA
current
(Ion=1.5mA)
Non- OFF, 0.02~2.00Ion/0.01Ion *If Not use selected at the input of
Time grounded (Ion=5A)0.05~10.00s/0.01s Definite
Zero-phase voltage, only ZCT input
delayZero-phaes 8~80V/1V enables to operate
voltage (Von=190V,190/ 3 V) (GR protection element)
Referencesensitivity 0~90/1
Phase angle
Time Low setOFF, 0.8~1.6Vn/0.01Vn
0.01~1.20/0.01 InverseSI, VI, DT
delay High set 0.05~10.00s/0.01s Definite
Instanta OFF, 0.05~0.80Von/0.01Von40~250ms Definite
neous (0.09~1.0Von/0.01Von)SI, VI, EI, DT
Low setOFF, 0.05~0.20Von/0.01Von
Von=190V
Time (0.09~0.4Von/0.01Von) 0.05~1.00/0.01 Inverse(in case of Von=190/ 3 V)
delayHigh set
OFF, 0.05~0.80Von/0.01Von 0.05~300.00s/0.01s Definite
(0.09~1.0Von/0.01Von)
Time delay -OFF, 0.20~1.00Vn/0.01Vn 0, 0.05~10.00s/0.01s Definite
Time delay -OFF, 0.20~1.00Vn/0.01Vn 0, 0.05~10.00s/0.01s Definite B-bus R-phase voltage detection
Time delay OFF, 0.05~1.00Vn/0.01Vn 0.05~10.00s/0.01s Definite
Time delay OFF, 5~100%/1% 0.05~10.00s/0.01s Definite
GIPAM-2000FI
Operating part Setting rangeOperating time
NoteSetting Curves
√
√
Unbalance (%) = Reverse potion of unbalanced 3- phase circuits
×100Normal potion of unbalanced3-phase circuits
Unbalance (%) = Vmax-Vmin Vaverage
×100
Instanta Low setOFF, 0.5~32In/0.1In 30~250ms Definte
neous High set
Time Low set OFF, 0.10~5.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,
delay High set OFF, 0.10~10.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Instanta Low setOFF, 0.1~8.0In/0.02In 40~250ms/5ms Definite
neous High set
Time Low set OFF, 0.02~2.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,delay
High set OFF, 0.1~2.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Zero-phaesGrounded
OFF, 0.9~6mA/0.1mA
(Ion=1.5mA)
currentNon- OFF, 0.02~2.00Ion/0.01Ion
Time grounded (Ion=5A)
delayZero-phaes 8~80V/1V
0.05~10.00s/0.01s Definite
voltage (Von=190V,190/ 3 V)
Reference0~90/1sensitivity
Phase angle
Instanta neous OFF, 0.1~2.0In/0.02In 30~250ms/5ms Definite
Time delay OFF, 0.08~1.00In/0.01In0.05~1.00/0.01 Inverse
SI, VI, EI, LI, DT
0.05~10.00s/0.01s Definite
Unbalance (%) =Time delay OFF, 5~100%/1% 40~250ms Definite Vmax-Vmin
×100Vaverage
Time Stall Current OFF, 0.20~10.00In/0.01In 0.05~300.00s/0.01s Definite Starting time set
delayLock Current OFF, 0.20~10.00In/0.01In 0.05~1.00/0.01 Inverse (VI,EI) 1~300s/0.1s
t :Operating timeHot
Thermal time constant k : multiple factorOFF, 0.20~5.0In/0.01In
0.5~60min/0.5min (0.5~1.5/0.05)Cold
τ: Thermal time constant
Time delay OFF, 0.05~1.00Vn/0.01Vn 0.05~10.00s/0.01s Definite
Time delay -OFF, 0.20~1.00Vn/0.01Vn 0, 0.05~10.00s/0.01s Definite
N-1-21
GIPAM
-2000/2200
N1
OCR
(50/51)
OCGR
(50/51N)
SGR (67G)
DGR (67N)
NSOCR (46)
POR (47P)
Stall/Lock
(48/51LR)
THR (49)
NSOVR
(47N)
UVR (27)
* Operating Delay time (C) can be set: 0.00 ~ 10.00s/0.01s (applies only for inverse time)
*
*
*
√
t=τ. lnI2-IP2
I2-(k∙IB)2
t=τ. lnI2
I2-(k∙IB)2
*If Not use selected at the input of
Zero-phase voltage, only ZCT input
enables to operate
(GR protection element)
GIPAM-2000M
Protection Operating part Setting rangeOperating time
NoteSetting Curves
Unbalance (%) = Reverse potion of unbalanced 3- phase circuits
×100Normal potion of unbalanced3-phase circuits
N-1-22
Digital Integrated Protection & Monitoring DeviceCharacteristics
Setting
Instanta Low setOFF, 0.5~32In/0.1In 30~250ms/5ms Definite
neous High set
Time Low set OFF, 0.10~5.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,
delay High set OFF, 0.10~10.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Instanta Low setOFF, 0.5~32In/0.01In 30~250ms/5ms Definite
neous High set
Time Low set OFF, 0.10~5.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,
delay High set OFF, 0.10~10.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Instanta Low setOFF, 0.5~32In/0.01In 30~250ms/5ms Definite
neous High set
Time Low set OFF, 0.10~5.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,
delay High set OFF, 0.10~10.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Instanta Low setOFF, 0.1~8.0In/0.02In 40~250ms Definite
neous High set
Time Low set OFF, 0.02~2.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,
delay High set OFF, 0.1~2.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
Instanta Low setOFF, 0.1~8.0In/0.02In 40~250ms Definite
neous High set
Time Low set OFF, 0.02~2.00In/0.01In 0.05~1.20/0.01 Inverse SI, VI, EI, LI, DT,
delay High set OFF, 0.1~2.00In/0.01In 0.05~300.00s/0.01s Definite Kepco SI, Kepco VI
OCR
(50/51-1)
OCR
(50/51-2)
OCR
(50/51-3)
OCGR
(50/51N-1)
OCGR
(50/51N-2)
*
*
*
*
*
Note) 1.*Operating Delay time (C) can be set: 0.00 ~ 10.00s/0.01s (applies only for inverse time) 2. OCR(50/51-3) and OCGR(50/51N-2) are models for three winding.
Setting range Delay time Note
DFR (87T)
Id : 0.2~1.0In/0.1In
Slope 1 : 0.15~1.00/0.01
Slope 2 : 0.15~1.00/0.01
Knee Point : 1.0~20.0In/0.1In
Inrush Inhibit : 5~50%/1% Inrush Inhibit : 0.02~60.00/0.01s
Id : 2.0~32In/0.1In Instanta neous: less than 40ms
Low set
High set
Inst., 0.05~10.00s/0.01s Inst.: less than 50ms
GIPAM-2000T
Protection
Protection Time Setting rangeDelay time
CurvesNote
Setting
N-1-23
GIPAM
-2000/2200
N1
GIPAM-2200 F
Instanta Low setOFF, 1.0~32.0In/0.1In
Low: 0.05~300.00s/0.01sDefinite
OCR (50/51neous High set High: 40ms and below
Time delay OFF, 0.10~10.00In/0.01In 0.05~1.20/0.01 Inverse
DT, SI, VI, EI, LI0.05~300.00s/0.01s Definite
Instanta Low setOFF, 0.1~8.0In/0.02In
Low: 0.05~300.00s/0.01sDefinite
OCGR neous High set High: 40ms and below
(50/51N)Time delay OFF, 0.02~2.00In/0.01In
0.05~1.20/0.01 InverseDT, SI, VI, EI, LI
0.05~300.00s/0.01s Definite
NSOVR (47) Time Low setOFF, 0.1~1.0Vn/0.1Vn 0.05~10.00s/0.01s Definite
V2=1/3 (VR + a2VS + aVT)
POR delay High set a=1∠120, a2=1∠240
UVR (27) Time delay 0.20~1.00Vn/0.01Vn 0, 0.05~10.00s/0.01s Definite
OVR (59) Time Low setOFF, 0.8~1.6Vn/0.01Vn 0.05~10.00s/0.01s Definite
delay High set
Instantaneous OFF, 11~80V/1V Inst, 50~250ms/5ms DefiniteDT, SI
OVGR (64)Von=190V or 190/ 3VTime delay OFF, 11~80V/1V
0.05~1.00/0.01 Inverse
0.05~300.00s/0.01s Definite
Instantaneous OFF, 0.1~1.0In/0.02In Inst, 50~250ms/5ms Definite
NSOCR (46)DT, SI, VI, EI, LI
Time delay OFF, 0.1~1.0In/0.01In0.05~1.00/0.01 Inverse
Inst : 40ms and below 0.05~10.00s/0.01s Definite
isolated 0.9~6mA/0.1mA
Zero-phasesystem (Ion=1.5mA)
current grounded 0.02~2.00Ion/0.01Ion Vo > Vos
SGR (67G) Time system (Ion=5A)0.05~10.00s/0.01s Definite
Io > Ios
DGR (67N) delay Zero-phase 11~80V/1V ∅(Vo) -∅(Io) ≤ RCA + 87。
voltage (Von=190V, 190/ 3V) ∅(Vo) -∅(Io) ≥ RCA - 87。
0~90/5
Hot τh : 2.0~60.0min/0.5min t = τh∙ln I 2- IP
2 t : operating time
THR (49) 0.2~1.2In/0.01InI
2- (k∙IB)
2
k : multiple factor
Cold τc : 2.0~60.0min/0.5min t = τc∙ln I 2 (0.8~1.2/0.05)
I2- (k∙IB)
2 τ: thermal constant
Stall/Lock TimeStall OFF, 0.2~10.0In/0.01In 0.05~300.00s/0.01s Definite
Start time range
(48/51LR) delay Lock OFF, 0.2~10.0In/0.01In0.05~1.00/0.01 Inverse (VI, EI)
1.0~300.0s/0.1s 0.05~300.00s/0.01s Definite
UCR (37) Time delay 0.1~0.9In/0.02In 0.1~10.0s/0.01s Definite
Starts Number 1~5 times/1
Base Time 10~60min/1min
NCH (66) Time between starts Block 0~60min/1min
Restart Block 0~60min/1min
Residual Thermal 10~80%/1%
Protection Operating part Setting rangeOperating time
NoteSetting Curves
√
√
[ ]
[ ]
Relaycharacteristic
angle
N-1-24
Digital Integrated Protection & Monitoring DeviceCharacteristics
Id (Pick-up): 0.2~1.0In/0.1In Normal mode
Slope 1: 15~100%/1%Inst, 0.05~10.00s/0.01s
Inst : 40ms and below Time delay
Slope 2: 15~100%/1% Inrush modedifferential current
Knee Point: 1.0~20.0In/0.1 In Inst : 50ms and below
DFR(Low set)
Inrush Inhibit: ON (10~50%/1%) OFF 2Harmonic/Basic(87T-P)
Instantaneous
differential current Id (Pick-up): 2.0~32.0 In/0.1In 40ms and below Inrush Inhibit
(High set)
Io Elimination: ON, OFF
DFR Zero-phase Iod (Pick-up): 0.05~1.00In/0.01InInst, 0.05~10.00s/0.01s Inst : 40ms and below
(87T-G) differential current Slope: 15~100%/1%
Protection Setting range Operating time Note
Instanta Low setOFF, 1.0~32.0In/0.1In
Low: 0.05~300.00s/0.01s Definite
OCR-1 neous High set High: 40ms and below
(50/51)Time delay OFF, 0.10~10.00In/0.01In
0.05~1.20/0.01 InverseDT, SI, VI, EI, LI
0.05~300.00s/0.01s Definite
Instanta Low setOFF, 1.0~32.0In/0.1In
Low: 0.05~300.00s/0.01sDefinite
OCR-2 neous High set High: 40ms and below
(50/51)Time delay OFF, 0.10~10.00In/0.01In
0.05~1.20/0.01 InverseDT, SI, VI, EI, LI
0.05~300.00s/0.01s Definite
Instanta Low setOFF, 0.1~8.0In/0.02In
Low: 0.05~300.00s/0.01sDefinite
OCGR-1 neous High set High: 40ms and below
(50/51N)Time delay OFF, 0.02~2.00In/0.01In
0.05~1.20/0.01 InverseDT, SI, VI, EI, LI
0.05~300.00s/0.01s Definite
Instanta Low setOFF, 0.1~8.0In/0.02In
Low: 0.05~300.00s/0.01sDefinite
OCGR-2 neous High set High: 40ms and below
(50/51N) Time delay OFF, 0.02~2.00In/0.01In
0.05~1.20/0.01 InverseDT, SI, VI, EI, LI
0.05~300.00s/0.01s Definite
Instantaneous OFF, 11~80V/1V Inst, 50~250ms/5ms Definite DT, SI
OVGR (64)
Time delay OFF, 11~80V/1V0.05~1.00/0.01 Inverse
Von=190V or 190/ 3V0.05~300.00s/0.01s Definite
isolated OFF, 0.9~6mA/0.1mA
Zero-phase system (Ion=1.5mA)
current grounded OFF, 0.02~2.0Ion/0.01Ion Vo > Vos
SGR (67G) Time system (Ion=5A)0.05~10.00s/0.01s Definite
Io > Ios
DGR (67N) delay Zero-phase 11~80V/1V ∅(Vo) -∅(Io) ≤ RCA + 87。
voltage (Von=190V, 190/ 3V) ∅(Vo) -∅(Io) ≥ RCA - 87。
0~90/5
√
√
Protection Operating part Setting rangeOperating time *
2)
NoteSetting Curves
Relaycharacteristic
angle
GIPAM-2200 T
Note) 1. * Operating Delay time (C) can be set: 0.00 ~ 10.00s/0.01s (applies only for inverse time) 2. OVGR is not connected to the CB_OFF (TRIP circuit) . ( Modify the LOGIC if necessary )
N-1-25
Time Characteristic Curves
GIPAM
-2000/2200
N1
Standard Inverse Time-SI
t = 0.14
×TL + C(I/IS)0.02-1
Application : OCR (50/51)
OCGR (50/51N)
OVGR (64)
NSOCR (46)
∙Time lever (TL) : 0.05~1.2
∙Relay constant C: 0
∙Operation Delay Time: 0.00~10.00s/0.01s (OCR, OCGR, NSOCR)
t = 13.5
×TL + C(I/IS)-1
Application : OCR (50/51)
OCGR (50/51N)
OVGR (64)
NSOCR (46)
Locked Rotor (51LR)
OVGR NSOCR
TL: 0.05~1.0
∙Time lever (TL) : 0.05~1.2
∙Relay constant C: 0
∙Operation Delay Time: 0.00~10.00s/0.01s(OCR, OCGR, NSOCR)
OVGR NSOCRLocked Rotor
TL: 0.05~1.0
Very Inverse Time-VI
N-1-26
Digital Integrated Protection & Monitoring DeviceTime Characteristic Curves
Extremely Inverse Time-EI
t = 120
×TL + C(I/IS)-1
Application : OCR (50/51)
OCGR (50/51N)
NSOCR (46)
t = 80
× TL + C(I/IS)2-1
Application : OCR (50/51)
OCGR (50/51N)
OVGR (64)
NSOCR (46)
Locked Rotor (51LR)
∙Time lever TL: 0.05~1.2(NSOCR (TL): 0.05~1.0)
∙Relay constant C: 0
∙Operation Delay Time: 0.00~10.00s/0.01s (NSOCR)
∙Time lever (TL) : 0.05~1.2
∙Relay constant C: 0
∙Operation Delay Time: 0.00~10.00s/0.01s (OCR, OCGR, NSOCR)
OVGRNSOCRLocked Rotor
TL: 0.05~1.0
Long Inverse Time-LI
N-1-27
GIPAM
-2000/2200
N1
Application : SGR (67G)
DGR(67N)
Application : THR (49)
IP = 0.5
k= 1
IB= 1
IP : Fault full load currentIB : Rating load currentk : Overload constantI : Fault current
τh (τheating)τc (τcooling)
t =τh∙InI2-IP2
I2- (k∙IB)2
τh = 2.0 ~ 60.0min
t =τc∙InI2
I2- (k∙IB)2
τc = 2.0 ~ 60.0min
HOT
COLD
(a) Pick-up Io∠ :
323。~ 127。(b) Drop-out Io∠ :
137。~ 313。
Vo > VosIo > IosRCA - 87。≤∅(Vo) -∅(Io) ≤ RCA + 87。
∙RCA : Relay Characteristic Angle
Thermal Curve
N-1-28
Digital Integrated Protection & Monitoring DeviceTime Characteristic Curves
Ratio Differential Curve
Ground Ratio Differential Curve
Application : DFR (87T-P)
Id = Idifferential = I1-I2 (Vector sum.)
Ir = Irestraint = I1 + I2 (Scalar sum.)
SLOPE = [ ]
Fault Characteristic : ( I1st = If , I2nd = 0)
Id:Differential currentIr: Restraint currentId> : Time delay differential current
(Low set: 0.2~1.0)Id>>: Instantaneous differential current
(High set: 2.0~32.0)
IrId
Application : DFR (87T-G)
Iod: Zero-phase differential current
Ior: Zero-phase restraint current
Iod>: Time delay zero-phase differential
current (0.05 ~ 1.00)
Iod = 3Io-Ig (Vector sum.)
Ior = 3Io + Ig (Scalar sum.)
SLOPE = [ ]
Fault Characteristic ( I1st = If , I2nd = 0)
IorIod
N-1-29
Wirings
GIPAM
-2000/2200
N1
GIPAM-2000FI/M (3P3W)
GIPAM-2000FI/M
27R detect
N-1-30
Digital Integrated Protection & Monitoring DeviceWirings
3P3W
R S T
* In case of using a separate CT for the neutral point
*In case of using three winding CT as 3CT Y wiring in the 3-phase 3- wire resistance grounding system
*Ground fault detection in case of using ground CT in the 3-phase 3-wire resistance grounding system
GIPAM-2000FI/M (3P4W)
N-1-31
GIPAM
-2000/2200
N1
GIPAM-2000T (for two winding)
GIPAM-2000T
N-1-32
Digital Integrated Protection & Monitoring DeviceWirings
* In case of using a separate CT for the neutral point (primary, secondary and tertiary all possible)
GIPAM-2000T (for three winding)
N-1-33
GIPAM
-2000/2200
N1
GIPAM-220 FN/FZ
* 3P3W 3-Winding CT application
* 3P3W Ground CT application
2PT(Open delta wiring)
2CT
GIPAM-2200FN/FZ (3P3W)
N-
Digital Integrated Protection & Monitoring DeviceWirings
1P3W
GIPAM-2200FN (3P4W)
* NCT application
N-1-35
GIPAM
-2000/2200
N1
GIPAM-2200 T1
N-1-36
Digital Integrated Protection & Monitoring DeviceWirings
GIPAM-2200 T3
GIPAM-2200 T2
N-1-37
Contact Usage
GIPAM
-2000/2200
N1
76 VR1 VR2 6177 VS1 VS2 6278 VT1 VT2 6379 Vo1 Vo2 6480 VB1 VB2 6581 BLANK BLANK 6682 COM COM 6783 TX0 TX1 6884 RX0 RX1 6985 BLANK BLANK 7086 IR1 IR2 7187 IS1 IS2 7288 IT1 IT2 7389 In1 In2 7490 Io1 Io2 75
46 CB1_OFF0 CB1_OFF1 3147 PO01+ PO01- 32 48 CB1_ON0 CB1_ON1 33 49 PO02+ PO02- 34 50 DO01 DO02 35 51 DO03 DO04 36 52 COM00 DO32 37 53 DO31 BLANK 38 54 ALM-COM DO11 39 55 DO12 DO13 40 56 DO14 DO15 41 57 COM01 DO21 42 58 DO22 DO23 43 59 DO24 DO25 44 60 COM02 BLANK 45
16 DI02 DI01 117 DI04 DI03 218 DI11 COM00 319 DI13 DI12 420 COM01 DI14 521 DI22 DI21 622 DI24 DI23 723 DI31 COM02 824 DI33 DI32 925 DI35 DI34 10 26 DI37 DI36 11 27 COM03 DI38 12 28 BLANK BLANK 1329 POWER(-) POWER(+) 14 30 FG FG 15
Terminal No. Usage (default setting) Usage (for change) Remarks
1 CB1 status input (52a)Unchangeable
16 CB1 status input (52b)
2 General DI CB2 status input (52a) Terminal No. Used as CB2 state input terminal
17 General DI CB2 status input (52b) when PO is set for TRIP in TRIP logic.
18 General DI Input for 63CBIMust be wired when selecting 79 (Reclosing)
4 General DI Input for 43RC
19 General DI General DI
5 General DI Ext. Reclose Initiate output 79 sequence start at Logical High Input
General DI General DIUsed as general Digital Input contact such as Switchgear
Intorlock Breaker Interlock, D / S state and E / S state,
46CB1 OFF output
OVGR is not connected to the CB_OFF (TRIP circuit) .31
48CB1 ON output
Unchangeable(Modify the LOGIC if necessary)
33
47POWER OUT 1 output CB2 OFF output
32 Function as CB2 only when PO is set for TRIP
49POWER OUT 2 output CB2 ON output
in TRIP logic.
34
50 50/51 (OCR) General DO
35 50/51N (OCGR) General DO
51 67G/N (SGR/DGR) General DO
36 27 (UVR-Latch) General DO
39 27R (R-UVR) 79 Ready
55 47P (POR) 79 Success
40 47N (NSOVR) 79 Fail
56 General DO 79 Process
41 General DO 79 Cancel
42 59 (OVR) General DO
58 64 (OVGR) General DO
43 27 (UVR-Pulse) General DO
59 86X (Lock-out) General DO
44 BUZZER General DO BUZZER
53 DIAG-ERR General DO Terminal for self-diagnostic alarm
37 PWR-FAIL General DO Terminal for power supply problem alarm
Terminal description
DI01
DI02
DI03
DI04
DI11
DI12
DI13
DI14
DI21~DI38
CB1-OFF0
CB1-OFF1
CB1-ON0
CB1-ON1
PO01+
PO01 -
PO02+
PO02 -
DO01
DO02
DO03
DO04
DO11
DO12
DO13
DO14
DO15
DO21
DO22
DO23
DO24
DO25
DO31
DO32
50/51 (OCR)
50/51N (OCGR)
67G/N (SGR/DGR)
27 (UVR-Latch)
46 (NSOCR)
47P (POR)
47N (NSOVR)
49 (THR)
48/51LR
General DO
General DO
27 (UVR-Pulse)
86X (Lock-out)
* M type output contacts (Default): can be used as General DO
GIPAM-2000FI/M
Input / Output
N-1-38
Digital Integrated Protection & Monitoring DeviceContact Usage
76 FG FG 6177 Pri_IR1 Pri_IR2 6278 Pri_IS1 Pri_IS2 6379 Pri_IT1 Pri_IT2 6480 IN11 IN12 6581 Sec_IR1 Sec_IR2 6682 Sec_IS1 Sec_IS2 6783 Sec_IT1 Sec_IT2 6884 IN21 IN22 6985 Ter_IR1 Ter_IR2 7086 Ter_IS1 Ter_IS2 7187 Ter_IT1 Ter_IT2 7288 COM COM 7389 TX0 TX1 7490 RX0 RX1 75
46 CB1_OFF0 CB1_OFF1 3147 PO01+ PO01- 32 48 CB1_ON0 CB1_ON1 33 49 PO02+ PO02- 34 50 DO01 DO02 35 51 DO03 DO04 36 52 COM00 DO32 37 53 DO31 BLANK 38 54 ALM_COM DO11 39 55 DO12 DO13 40 56 DO14 DO15 41 57 COM01 DO21 42 58 DO22 DO23 43 59 DO24 DO25 44 60 COM02 BLANK 45
16 DI02 DI01 117 DI04 DI03 218 DI11 COM00 319 DI13 DI12 420 COM01 DI14 521 DI22 DI21 622 DI24 DI23 723 DI31 COM02 824 DI33 DI32 925 DI35 DI34 10 26 DI37 DI36 11 27 COM03 DI38 12 28 BLANK BLANK 1329 POWER(-) POWER(+) 14 30 FG FG 15
Input / OutputTerminal No. Usage (default setting) Usage (for change) Remarks
1 CB1 status input (52a)Unchangeable
16 CB1 status input (52b)
2 General DI CB2 status input (52a) Terminal No. Used as CB2 state input terminal
17 General DI CB2 status input (52b) when PO is set for TRIP in TRIP logic
Used as general Digital Input contact such as Switchgear 16 General DI 16 General DI
Intorlock Breaker Interlock, D / S state and E / S state,
46CB1 OFF output
31Unchangeable
48CB1 ON output
33
47POWER OUT 1 output CB2 OFF output
32Function as CB2 only when PO is set for TRIP
49POWER OUT 2 output CB2 ON output
34
50 OCR1 ALARM General DO
35 OCR2 ALARM General DO
51 OCR3 ALARM General DO
36 DFR ALARM General DO
39 General DO General DO
55 General DO General DO
40 OCGR1 ALARM General DO
56 OCGR2 ALARM General DO
41 General DO General DO
42 General DO General DO
58 General DO General DO
43 General DO General DO
59 86X (Lock-out) General DO
44 BUZZER General DO
53 DIAG-ERR General DO Terminal for self-diagnostic alarm
37 PWR-FAIL General DO Terminal for power supply problem alarm
Terminal description
DI01
DI02
DI03
DI04
DI11~DI38
CB1-OFF0
CB1-OFF1
CB1-ON0
CB1-ON1
PO01+
PO01 -
PO02+
PO02 -
DO01
DO02
DO03
DO04
DO11
DO12
DO13
DO14
DO15
DO21
DO22
DO23
DO24
DO25
DO31
DO32
Pri : Primary (for primary winding) Sec : Secondary (for secondary winding) Ter : Tertiary (for tertiary winding)
GIPAM-2000T
N-1-39
GIPAM
-2000/2200
N1
Input / OutputTerminal No. Usage Default Note
60 DI_01 CB_52aFixed
59 DI_02 CB_52b
57 DI_03 General DI General DI
56 DI_04 General DI General DI
55 DI_05 General DI General DI
54 DI_06 General DI General DI
50 CB_OFF0CB_OPEN output
49 CB_OFF1Fixed
48 CB_ON0CB_CLOSE output
47 CB_ON1
46 DO_01 50/51 (OCR) General DO (Normal/Pulse)
45 DO_02 50/51N, 67G/N (OCGR/SGR/DGR) General DO (Normal/Pulse)
44 DO_03 27 (UVR) General DO (Normal/Pulse)
43 DO_04 59 (OVR) General DO (Normal/Pulse)
40 DO_05 64 (OVGR) General DO (Normal/Pulse)
39 DO_06 47 (NSOVR) General DO (Normal/Pulse)
38 DO_07 49 (THR) General DO (Normal/Pulse)
36 DO_08 48/51LR (Stall/Lock) General DO (Normal/Pulse)
35 DO_09 Pick-up Fixed
34 DO_10 Power_Fail/Diag_Err
GIPAM-2200 FN/FZ
*
* OVGR is not connected to the CB_OFF. ( Modify the LOGIC if necessary )
N-1-40
Digital Integrated Protection & Monitoring DeviceContact Usage
Comm. Reset switch, LED
output
input
Input / Output
GIPAM-2200 T
Terminal No. Usage Default Note
60 DI_01 CB_52aFixed
59 DI_02 CB_52b
57 DI_03 General DI General DI
56 DI_04 General DI General DI
55 DI_05 General DI General DI
54 DI_06 General DI General DI
50 CB_OFF0CB_OPEN output
49 CB_OFF1Fixed
48 CB_ON0CB_CLOSE output
47 CB_ON1
46 DO_01 87T-P (DFR) General DO (Normal/Pulse)
45 DO_02 87T-G (DFR) General DO (Normal/Pulse)
44 DO_03 50/51 (OCR 1) General DO (Normal/Pulse)
43 DO_04 50/51 (OCR 2) General DO (Normal/Pulse)
40 DO_05 50/51N, 67G/N (OCGR/SGR/DGR 1) General DO (Normal/Pulse)
39 DO_06 50/51N, 67G/N (OCGR/SGR/DGR 2) General DO (Normal/Pulse)
38 DO_07 64 (OVGR) General DO (Normal/Pulse)
36 DO_08 General DO (Normal) General DO (Normal/Pulse)
35 DO_09 Pick-up Fixed
34 DO_10 Power_Fail/Diag_Err
* OVGR is not connected to the CB_OFF. ( Modify the LOGIC if necessary )
*
N-1-41
Dimension
GIPAM
-2000/2200
N1
GIPAM-2000
N-1-42
Digital Integrated Protection & Monitoring DeviceDimension
GIPAM-2200
N-1-43
Ordering
GIPAM
-2000/2200
N1
FI RS D 5AGIPAM -2000
Protection Usage
FI Feeder/Incoming
M Motor
T Transformer
Protocol
D DNP3.0
M MODBUS
I I-NET
Communication
RS RS-485
OP Fiber-Optic/RS-485
IN I-NET
TE 100/10 Base-T Ethernet
- Non
FN RS D AIGIPAM-2200
Protection Usage
FN Feeder, Incoming, Motor / NCT
FZ Feeder, Incoming, Motor / ZCT
T1 Transformer / Pri_NCT, Sec_NCT
T2 Transformer / Pri_NCT, Sec_ZCT
T3 Transformer / Pri_ZCT, Sec_NCT
Protocol
D DNP3.0
E IEC60870
M MODBUS
I I-NET
Analog Input
AI 4~20mA
- Non
60Hz
Frequency
60Hz
50Hz
Input
5A
1A
60Hz
Frequency
60Hz
50Hz
Communication
RS RS-485
OP Fiber-Optic/RS-485
IN I-NET
- Non
IrDA Serial Port(Option)PC Interface SoftwareGIPAM-OPTO MASTER
*
* Contact your LS sales representative for 1A specification.